RESUMO
The prevalence of obesity is increasing across all geographies. Obesity develops due to a disruption of the energy balance regulation. However, the cause is not well understood. Identification of causal factors that may be modified is crucial to reduce the prevalence of obesity. However, the interventions needed will likely differ between life stages. Hence, obesity research should span from pre-conception to adulthood. In this review, we point to gaps and limitations in existing research, highlight recently initiated studies from which we are awaiting results and point to future directions.
Assuntos
Obesidade , Humanos , Geografia , Obesidade/epidemiologia , Obesidade/prevenção & controleRESUMO
The DNA methyltransferase inhibitors (DNMTi) 5-azacytidine and 5-aza-2-deoxycytidine have been approved for the treatment of different types of hematologic malignancies. However, only about 50% of patients respond to treatment. Therefore, a more comprehensive understanding of the molecular changes in patients treated with DNMTi is needed. Here, we examined gene expression profiles in a total of 150 RNA samples from two adult cohorts and one pediatric cohort with hematologic cancers taken before, during, and after treatment with 5-azacytidine (40 patients; 15 nonresponders, 25 responders). Using each patient as their own control, malignant cells showed preferential activation of a subset of evolutionarily young transposable elements (TE), including endogenous retroviral long terminal repeats (LTR), short and long interspersed nuclear elements (SINE and LINE), and the type I IFN pathway in responders, all independent of disease classification. Transfection of eight upregulated LTRs into recipient human cells in culture showed robust and heterogenous activation of six genes in the type I IFN pathway. These results, obtained in diverse hematologic disease entities, show that common targets (TE) activated by the same drug (5-azacytidine) elicit an immune response, which may be important for patient's responses to DNMTi. SIGNIFICANCE: Activation of specific classes of evolutionarily young transposable elements can lead to activation of the innate immune system.